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Cluster Management
1 - Running Kubelet in Standalone Mode
This tutorial shows you how to run a standalone kubelet instance.
You may have different motivations for running a standalone kubelet. This tutorial is aimed at introducing you to Kubernetes, even if you don't have much experience with it. You can follow this tutorial and learn about node setup, basic (static) Pods, and how Kubernetes manages containers.
Once you have followed this tutorial, you could try using a cluster that has a control plane to manage pods and nodes, and other types of objects. For example, Hello, minikube.
You can also run the kubelet in standalone mode to suit production use cases, such as to run the control plane for a highly available, resiliently deployed cluster. This tutorial does not cover the details you need for running a resilient control plane.
Objectives
- Install
cri-o
, andkubelet
on a Linux system and run them assystemd
services. - Launch a Pod running
nginx
that listens to requests on TCP port 80 on the Pod's IP address. - Learn how the different components of the solution interact among themselves.
Caution:
The kubelet configuration used for this tutorial is insecure by design and should not be used in a production environment.Before you begin
- Admin (
root
) access to a Linux system that usessystemd
andiptables
(or nftables withiptables
emulation). - Access to the Internet to download the components needed for the tutorial, such as:
- A container runtime that implements the Kubernetes (CRI).
- Network plugins (these are often known as Container Networking Interface (CNI))
- Required CLI tools:
curl
,tar
,jq
.
Prepare the system
Swap configuration
By default, kubelet fails to start if swap memory is detected on a node. This means that swap should either be disabled or tolerated by kubelet.
Note:
If you configure the kubelet to tolerate swap, the kubelet still configures Pods (and the containers in those Pods) not to use swap space. To find out how Pods can actually use the available swap, you can read more about swap memory management on Linux nodes.If you have swap memory enabled, either disable it or add failSwapOn: false
to the
kubelet configuration file.
To check if swap is enabled:
sudo swapon --show
If there is no output from the command, then swap memory is already disabled.
To disable swap temporarily:
sudo swapoff -a
To make this change persistent across reboots:
Make sure swap is disabled in either /etc/fstab
or systemd.swap
, depending on how it was
configured on your system.
Enable IPv4 packet forwarding
To check if IPv4 packet forwarding is enabled:
cat /proc/sys/net/ipv4/ip_forward
If the output is 1
, it is already enabled. If the output is 0
, then follow next steps.
To enable IPv4 packet forwarding, create a configuration file that sets the
net.ipv4.ip_forward
parameter to 1
:
sudo tee /etc/sysctl.d/k8s.conf <<EOF
net.ipv4.ip_forward = 1
EOF
Apply the changes to the system:
sudo sysctl --system
The output is similar to:
...
* Applying /etc/sysctl.d/k8s.conf ...
net.ipv4.ip_forward = 1
* Applying /etc/sysctl.conf ...
Download, install, and configure the components
Install a container runtime
Download the latest available versions of the required packages (recommended).
This tutorial suggests installing the CRI-O container runtime (external link).
There are several ways to install
the CRI-O container runtime, depending on your particular Linux distribution. Although
CRI-O recommends using either deb
or rpm
packages, this tutorial uses the
static binary bundle script of the
CRI-O Packaging project,
both to streamline the overall process, and to remain distribution agnostic.
The script installs and configures additional required software, such as
cni-plugins
, for container
networking, and crun
and
runc
, for running containers.
The script will automatically detect your system's processor architecture
(amd64
or arm64
) and select and install the latest versions of the software packages.
Set up CRI-O
Visit the releases page (external link).
Download the static binary bundle script:
curl https://raw.githubusercontent.com/cri-o/packaging/main/get > crio-install
Run the installer script:
sudo bash crio-install
Enable and start the crio
service:
sudo systemctl daemon-reload
sudo systemctl enable --now crio.service
Quick test:
sudo systemctl is-active crio.service
The output is similar to:
active
Detailed service check:
sudo journalctl -f -u crio.service
Install network plugins
The cri-o
installer installs and configures the cni-plugins
package. You can
verify the installation running the following command:
/opt/cni/bin/bridge --version
The output is similar to:
CNI bridge plugin v1.5.1
CNI protocol versions supported: 0.1.0, 0.2.0, 0.3.0, 0.3.1, 0.4.0, 1.0.0
To check the default configuration:
cat /etc/cni/net.d/11-crio-ipv4-bridge.conflist
The output is similar to:
{
"cniVersion": "1.0.0",
"name": "crio",
"plugins": [
{
"type": "bridge",
"bridge": "cni0",
"isGateway": true,
"ipMasq": true,
"hairpinMode": true,
"ipam": {
"type": "host-local",
"routes": [
{ "dst": "0.0.0.0/0" }
],
"ranges": [
[{ "subnet": "10.85.0.0/16" }]
]
}
}
]
}
Note:
Make sure that the defaultsubnet
range (10.85.0.0/16
) does not overlap with
any of your active networks. If there is an overlap, you can edit the file and change it
accordingly. Restart the service after the change.Download and set up the kubelet
Download the latest stable release of the kubelet.
curl -LO "https://dl.k8s.io/release/$(curl -L -s https://dl.k8s.io/release/stable.txt)/bin/linux/amd64/kubelet"
curl -LO "https://dl.k8s.io/release/$(curl -L -s https://dl.k8s.io/release/stable.txt)/bin/linux/arm64/kubelet"
Configure:
sudo mkdir -p /etc/kubernetes/manifests
sudo tee /etc/kubernetes/kubelet.yaml <<EOF
apiVersion: kubelet.config.k8s.io/v1beta1
kind: KubeletConfiguration
authentication:
webhook:
enabled: false # Do NOT use in production clusters!
authorization:
mode: AlwaysAllow # Do NOT use in production clusters!
enableServer: false
logging:
format: text
address: 127.0.0.1 # Restrict access to localhost
readOnlyPort: 10255 # Do NOT use in production clusters!
staticPodPath: /etc/kubernetes/manifests
containerRuntimeEndpoint: unix:///var/run/crio/crio.sock
EOF
Note:
Because you are not setting up a production cluster, you are using plain HTTP
(readOnlyPort: 10255
) for unauthenticated queries to the kubelet's API.
The authentication webhook is disabled and authorization mode is set to AlwaysAllow
for the purpose of this tutorial. You can learn more about
authorization modes
and webhook authentication to properly
configure kubelet in standalone mode in your environment.
See Ports and Protocols to understand which ports Kubernetes components use.
Install:
chmod +x kubelet
sudo cp kubelet /usr/bin/
Create a systemd
service unit file:
sudo tee /etc/systemd/system/kubelet.service <<EOF
[Unit]
Description=Kubelet
[Service]
ExecStart=/usr/bin/kubelet \
--config=/etc/kubernetes/kubelet.yaml
Restart=always
[Install]
WantedBy=multi-user.target
EOF
The command line argument --kubeconfig
has been intentionally omitted in the
service configuration file. This argument sets the path to a
kubeconfig
file that specifies how to connect to the API server, enabling API server mode.
Omitting it, enables standalone mode.
Enable and start the kubelet
service:
sudo systemctl daemon-reload
sudo systemctl enable --now kubelet.service
Quick test:
sudo systemctl is-active kubelet.service
The output is similar to:
active
Detailed service check:
sudo journalctl -u kubelet.service
Check the kubelet's API /healthz
endpoint:
curl http://localhost:10255/healthz?verbose
The output is similar to:
[+]ping ok
[+]log ok
[+]syncloop ok
healthz check passed
Query the kubelet's API /pods
endpoint:
curl http://localhost:10255/pods | jq '.'
The output is similar to:
{
"kind": "PodList",
"apiVersion": "v1",
"metadata": {},
"items": null
}
Run a Pod in the kubelet
In standalone mode, you can run Pods using Pod manifests. The manifests can either be on the local filesystem, or fetched via HTTP from a configuration source.
Create a manifest for a Pod:
cat <<EOF > static-web.yaml
apiVersion: v1
kind: Pod
metadata:
name: static-web
spec:
containers:
- name: web
image: nginx
ports:
- name: web
containerPort: 80
protocol: TCP
EOF
Copy the static-web.yaml
manifest file to the /etc/kubernetes/manifests
directory.
sudo cp static-web.yaml /etc/kubernetes/manifests/
Find out information about the kubelet and the Pod
The Pod networking plugin creates a network bridge (cni0
) and a pair of veth
interfaces
for each Pod (one of the pair is inside the newly made Pod, and the other is at the host level).
Query the kubelet's API endpoint at http://localhost:10255/pods
:
curl http://localhost:10255/pods | jq '.'
To obtain the IP address of the static-web
Pod:
curl http://localhost:10255/pods | jq '.items[].status.podIP'
The output is similar to:
"10.85.0.4"
Connect to the nginx
server Pod on http://<IP>:<Port>
(port 80 is the default), in this case:
curl http://10.85.0.4
The output is similar to:
<!DOCTYPE html>
<html>
<head>
<title>Welcome to nginx!</title>
...
Where to look for more details
If you need to diagnose a problem getting this tutorial to work, you can look within the following directories for monitoring and troubleshooting:
/var/lib/cni
/var/lib/containers
/var/lib/kubelet
/var/log/containers
/var/log/pods
Clean up
kubelet
sudo systemctl disable --now kubelet.service
sudo systemctl daemon-reload
sudo rm /etc/systemd/system/kubelet.service
sudo rm /usr/bin/kubelet
sudo rm -rf /etc/kubernetes
sudo rm -rf /var/lib/kubelet
sudo rm -rf /var/log/containers
sudo rm -rf /var/log/pods
Container Runtime
sudo systemctl disable --now crio.service
sudo systemctl daemon-reload
sudo rm -rf /usr/local/bin
sudo rm -rf /usr/local/lib
sudo rm -rf /usr/local/share
sudo rm -rf /usr/libexec/crio
sudo rm -rf /etc/crio
sudo rm -rf /etc/containers
Network Plugins
sudo rm -rf /opt/cni
sudo rm -rf /etc/cni
sudo rm -rf /var/lib/cni
Conclusion
This page covered the basic aspects of deploying a kubelet in standalone mode. You are now ready to deploy Pods and test additional functionality.
Notice that in standalone mode the kubelet does not support fetching Pod configurations from the control plane (because there is no control plane connection).
You also cannot use a ConfigMap or a Secret to configure the containers in a static Pod.
What's next
- Follow Hello, minikube to learn about running Kubernetes with a control plane. The minikube tool helps you set up a practice cluster on your own computer.
- Learn more about Network Plugins
- Learn more about Container Runtimes
- Learn more about kubelet
- Learn more about static Pods